Controlling Life And Death Of Dendritic Cell Subsets For Immunomodulation
Funder
National Health and Medical Research Council
Funding Amount
$639,577.00
Summary
Dendritic cells are pivotal in orchestrating immune responses; for example, they can turn immune cells into assassins to kill virus infections. Their function is so diverse that different dendritic cells do different jobs. There are many genes that control life and death of cells but those that are important for each specialised dendritic cell have not been comprehensively studied. Drugs that affect the proteins made by such genes selectively may be a new way of controlling immune responses.
The Cell Death Mechanisms That Control Regulatory T Cell Homeostasis
Funder
National Health and Medical Research Council
Funding Amount
$583,782.00
Summary
A central question in immunology is how to prevent destructive immune responses (e.g. autoimmune disease) and initiate productive immune responses (e.g. against cancer). A major breakthrough in this area was the discovery of special immune cells, called a Regulatory T Cells. We propose to discover the genes that determine whether these cells live and die. We will use this information to control appropriate numbers and function of Regulatory T Cells to modify the immune system.
Targeting CD40L(CD154) On Dendritic Cells For CD8 T Cell-mediated Immunity And Tolerance
Funder
National Health and Medical Research Council
Funding Amount
$558,441.00
Summary
Killer T cells fight infection but also participate in transplant rejection. Activation of killer T cells often requires helper T cells. However, in the absence of helper cells, we have found an alternative pathway by which killer cells can be activated. We will explore this new pathway in enhancing vaccine responses and in modulating transoplant rejection.
Reversing Autoimmune Diabetes By Controlling Pathogenic Effector T-cells
Funder
National Health and Medical Research Council
Funding Amount
$408,662.00
Summary
Type 1 diabetes (T1D) results from misdirected immune responses that destroy insulin-producing pancreatic cells. The ultimate goal of therapeutic strategies is to remove or inactivate the cells that attack insulin-producing cells, while leaving other cells, for example, those required for protection from infectious diseases and tumours, unaffected. Here we propose to test a new way of turning off the inappropriate immune reaction with the goal of preventing type 1 diabetes.
The Axis Of Bcl-2, Plasmacytoid DCs And Lupus As A Basis For Therapy
Funder
National Health and Medical Research Council
Funding Amount
$712,172.00
Summary
Systemic lupus erythematosus (SLE) affects 1 in 1000 Australians, mostly women. Here the immune system goes awry and makes antibodies against the body’s own components including the body’s DNA. This leads to damage to many parts of the body including kidneys, joints, brain and heart. It is incurable. A particular immune cell controls the development of this disease and we have found this cell is selectively killed by an inexpensive drug, which we hope will be a better way of treating SLE.
The Regulation Of Monocyte Derived Dendritic Cells (moDCs) During Allograft Rejection
Funder
National Health and Medical Research Council
Funding Amount
$110,218.00
Summary
Islet transplantation can cure type 1 diabetes, but the required drugs for immunosuppressing graft rejection have side effects. Therefore understanding how immune rejection occurs so that we can suppress in a more discreet selective way is our goal. A type of cell that is prominent during graft rejection is the monocyte derived dendritic cell. We propose that this cell is critical for orchestrating immune responses during rejection. Therefore we wish to determine how such cells are controlled.
The Role Of CCR6 In IL-17-producing CD8+ T Lymphocyte Activation And Trafficking
Funder
National Health and Medical Research Council
Funding Amount
$514,041.00
Summary
T lymphocytes play an important role in the control of infection, but can also contribute to diseases such as autoimmune disease and cancer. This research will identify the function of a new subtype of T lymphocyte and determine whether inhibiting its function prevents disease.